Note: Descriptions are shown in the official language in which they were submitted.
CA 02820509 2013-07-10
A SYSTEM FOR DIRECTING AND CONTROLLING TWO
SEPARATE STREAMS OF AIR TO A KITCHEN
This is a division, of Canadian Serial No. 2,520,330 filed September 20, 2005.
FIELD OF THE INVENTION
The present invention relates to commercial kitchen systems and more
particularly to a system for controlling the flow of makeup and conditioned
air into a kitchen
environment.
BACKGROUND OF THE INVENTION
Typically a commercial kitchen includes a stove or a cooking unit. Over the
stove or
cooking unit there is provided an exhaust hood. During the cooking operation,
air is pulled over
the stove and up through the exhaust hood where the air, laden with smoke,
cooking aromas,
etc. is exhausted from the kitchen and eventually the building. Because the
exhaust system
continuously draws air from the kitchen area, it is necessary to replenish air
to the kitchen area.
This is typically provided by what is often termed a makeup air unit. Makeup
air units pull
ambient air from the outside the building and disperse the air into the
kitchen area. In moderate
climates it is appropriate to disperse the makeup air in the vicinity of the
exhaust hood.
Consequently the dispersed makeup air is simply pulled over the stove area and
out the
exhaust system.
In cold and hot climates a problem can be presented. By simply directing
ambient air
into the kitchen area, it can be difficult to control the temperature within
the kitchen at a
comfortable level. Thus, it is known to condition the ambient air prior to the
air being dispersed
into the kitchen area. For example, in extremely cold environments it is
beneficial in some
cases to heat the makeup air before the air is dispersed into the kitchen. In
extremely hot
climates it may be beneficial to cool the air prior to the air being dispersed
into the kitchen.
However, conditioning the makeup air before dispersement into the kitchen can
be an
expensive undertaking. This is because some of the conditioned air will
immediately be induced
into the area over the stove and up and through the exhaust system. Thus, the
energy required
to condition that portion of the makeup air is not effectively utilized.
Therefore, to conserve energy and to provide a more cost effective make up
system for
commercial kitchens, it is desirable to provide a makeup air system that will
provide two
systems or streams of air, an untempered system of air and a tempered system
of air. The idea
is to provide a system where the untempered or ambient air is truly makeup air
inasmuch as a
substantial portion of that air stream is utilized to be recirculated over the
stove and out the
exhaust systems, while the tempered system or stream of air can be utilized to
heat or cool the
kitchen area. The problem is to devise a system where these two systems of air
can be
efficiently provided and controlled such that a majority or a substantial
portion of the
untempered air is utilized for exhaust purposes while a majority or a
substantial portion of the
tempered air is used for heating or cooling and generally making the kitchen
area comfortable.
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SUMMARY OF THE INVENTION
The present invention entails a method of directing two streams of air into a
kitchen
having an exhaust hood through which air is exhausted from the kitchen. The
two streams of air
include a conditioned stream and an unconditioned stream. The method entails
directing the
conditioned air stream into the kitchen and out an outlet in the vicinity of
the exhaust hood.
Further the method entails directing the unconditioned air stream into the
kitchen and out an
outlet positioned generally between the exhaust hood and the outlet for the
conditioned air
stream. The velocity of one or both air streams is controlled such that the
velocity of the
conditioned air stream equals or exceeds the velocity of the unconditioned air
stream.
In one particular embodiment of the present invention, a dual airflow plenum
is provided
and is mounted or stationed adjacent the exhaust hood. The dual airflow plenum
includes two
separate air chambers, one air chamber to accommodate the conditioned air
stream and the
other air chamber to accommodate the unconditioned air stream. The dual
airflow plenum is
positioned adjacent the exhaust hood such that an outlet for the unconditioned
stream or
system of air is positioned between the exhaust hood and an outlet for the
conditioned stream of
air. This arrangement and this position of the air plenum with respect to the
exhaust hood tends
to encourage substantial portions of the unconditioned air into and through
the exhaust hood
while substantial portions of the conditioned air is dispersed into the
adjacent kitchen area for
cooling or heating the air therein.
In another embodiment of the present invention, a dual air fiow kitchen plenum
is
provided and functions to direct two separate streams or systems of air into a
kitchen. The
plenum includes a rectangular or square frame having a series of sides, an
open top and an
open bottom. A top panel is secured over the frame. First and second air
inlets are formed in
the top for permitting first and second air streams to be directed into the
kitchen plenum. A
divider extends across the frame and divides the frame into two areas. There
is also provided
first and second pairs of spaced perforated plates that are secured in the
frame. The divider
and frame form two chambers. One stream of air is directed into the first
inlet and is
constrained to move through one chamber and through the first pair of
perforated plates. A
second stream of air is directed into the second inlet and is constrained to
move through the
second chamber and through the second pair of perforated plates.
In another embodiment of the present invention, a combination kitchen hood and
dual
airflow plenum is provided. Here the kitchen exhaust hood and the dual airflow
plenum are
disposed adjacent each other. The dual airflow plenum includes a frame
structure that forms
two air chambers. One chamber is particularly adapted to receive untempered
air while the
other chamber is particularly adapted to receive tempered air. To control the
distribution of
tempered and untempered air within the kitchen having the combination exhaust
hood and dual
airflow plenum, the outlet for the untempered air, associated with the plenum,
is disposed
adjacent the exhaust hood, while the outlet for the tempered air, associated
with the plenum, is
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disposed outwardly of the outlet for the untempered air. By controlling the
relative velocity of
the two streams of air, the untempered air is encouraged to enter the exhaust
hood while the
tempered air is engaged to enter the kitchen area for generally heating or
cooling the air therein.
Other objects and advantages of the present invention will become apparent and
obvious
from a study of the following description and the accompanying drawings, which
are merely
illustrative of such invention,
BRIEF DESCRIPTION OF THE DRAWINGS
Figure 1 is a perspective view of a dual airflow plenum that can be utilized
to direct two
separate systems of air into a kitchen area.
Figure 2 is an exploded view of the dual airflow plenum of Figure 1.
Figure 3A is a top plan view of the dual airflow plenum.
Figure 3B is a side elevational view of the dual airflow plenum.
Figure 4 is a schematic side elevational view showing the system of the
present
invention incorporated into a commercial kitchen.
DESCRIPTION OF AN EXEMPLARY EMBODIMENT OF THE PRESENT INVENTION
With further reference to the drawings and particularly Figure 4, there is
shown therein a
commercial kitchen, which is indicated generally by the numeral 10. Disposed
in the kitchen 10
is a stove or cooking unit 12. Mounted to the adjacent wall of the kitchen,
above the stove 12, is
an exhaust hood indicated generally by the numeral 14. In typical fashion,
exhaust hood 14
includes a surrounding wall 16 and a top 18. Formed in the top 18 is an
opening for receiving
an exhaust riser or collar 28. This forms an outlet about the top of the
exhaust hood 14.
Disposed about the backside of the exhaust hood 14 is a grease confinement
area 22. Grease
confinement area 22 is designed to receive a filter 26 and further includes a
grease cup 24 for
catching and retaining grease extracted from the exhaust stream.
Connected to the exhaust collar 28 is a duct 30. Duct 30 leads from the
exhaust collar
28 out the wall or ceiling of the kitchen to an exterior area. In conventional
fashion the exhaust
hood 14 would be operatively associated with an exhaust fan 11 that in turn is
operative to pull
air from the kitchen area 10 up past the stove 12 and through the exhaust hood
14 and out the -
duct 30.
Mounted adjacent exhaust hood 14 is a double air plenum indicated generally by
the
numeral 50. As will be appreciated from subsequent portions of this
disclosure, the double air
plenum 50 functions to control and direct two separate systems or streams of
air into the kitchen
area 10. More particularly, the double air plenum 50 is designed to facilitate
the control of two
separate streams of air such that one stream of air is encouraged to be
induced into and
through the exhaust hood 14 while the other system of air is encouraged to be
dispersed
generally into the kitchen area 10. In that regard, in some environments it is
advantageous to
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heat or cool one of the systems of air. The system or stream of air that is
heated or cooled is
referred to as conditioned air or tempered air. On the other hand, the other
system or stream of
air is referred to as untempered air. As will be appreciated from subsequent
portions of the
disclosure, the system of the present invention disperses both the untempered
and tempered
systems of air adjacent the exhaust hood 14. The untempered stream or system
of air is
dispersed adjacent the exhaust hood while the tempered or conditioned system
of air is
dispersed outwardly of the area where the untempered system of air is
dispersed. As seen in
Figure 4, the outlet for the untempered system of air is disposed generally
between the exhaust
hood 14 and the outlet for the tempered system of air.
Now turning to the structure of the double air plenum 50, and to Figures 1-3B,
this
structure comprises a rectangular or square frame 52. Frame 52 in the case of
this embodiment
includes four sides 52A, 52B, 520 and 520. Although frame 52 can be
constructed of various
materials, in the present embodiment the frame 52 is constructed of sheet
metal or stainless
steel and the individual sides 52A-52D are secured together by weldment or
other suitable
means and the seams are generally sealed by caulking or other suitable means
such that air or
air flow passing through the plenum 50 can be generally confined about the
walls 52A-52D.
Secured to the top of frame 52 is a top panel 54. Top panel 54 includes first
and second
openings. Secured to the first opening is a first outlet or collar 56. Secured
or formed around
the second opening is a second outlet or collar 58. As will be appreciate from
subsequent
portions of the disclosure, the first inlet 56 is designed to receive a stream
of untempered
makeup air. Second inlet 58, on the other hand, is designed to receive a
separate stream or
system of air that will be tempered or conditioned.
Double air plenum 50 is constructed so as to form two separate air chambers,
chamber
70 and chamber 72. See Figure 3B. In order to form chambers 70 and 72 a
divider 60 is
connected between opposing sides 52A and 520. As shown in Figure 3B, divider
60 is of a
height that is generally equal to the height of the sides of the frame 52.
Divider 60 includes an
upper top surface 60A that abuts against the bottom surface of top 54. A
sealed relationship is
formed between the top surface 60A of the divider 60 and the top 54 of the
plenum 50. In
addition, divider 60 includes an angled upper surface 60B that extends
generally downwardly
from the top surface 60A. As seen in Figure 3B, divider 60 basically divides
the frame 52 into
two chambers, chamber 70 and chamber 72.
Each of the chambers includes a pair of perforated plates disposed about the
lower
portion of the plenum 50. A first pair of perforated plates is disposed in
chamber 70. This first
pair of perforated plates includes plates 62 and 64. As seen in Figure 2, the
plates are of a
general U-shape construction and are turned such that the plates are opposed
to each other.
Likewise, in the other chamber 72, a second pair of perforated plates is
secured within the
frame 52 of the plenum 50. These plates are referred to as plates 66 and 68.
Like the first pair
of plates in chamber 70, these plates are of a U-shape construction and are
turned so as to
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oppose each other, again, as shown in Figure 2. The first and second pairs of
perforated plates
can be secured into the plenum 50 in various ways. For example, the upper
plates 62 and 66
can be anchored and secured by rivets, weldment or other suitable means to the
frame 52.
Bottom plates 64 and 68 can be secured to the upper plate 62 and 66 by bolts
or screws.
The double air plenum 50 can be suspended from the ceiling or other structure
in the
kitchen area 10. To accommodate for suspension, the top panel 54 of the plenum
50 is
provided with a series of hanger brackets 74. See Figure 3A. Each hanger
bracket 74 can be
connected to a flexible cable or wire 76. The respective flexible cables 76
can be extended
upwardly and secured to an overlying support structure in the kitchen area.
As briefly alluded to before, the double air plenum 50 is preferably
strategically located
with respect to the exhaust hood 14. Note in Figure 4 where the plenum 50 is
oriented with
respect to the exhaust hood such that chamber 70 lies adjacent the exhaust
hood and the outlet
thereof disposed adjacent the exhaust hood and between the exhaust hood and
the outlet of the
other chamber 72. As will be discussed later, chamber 70 is utilized to handle
and disperse
untempered makeup air while the other chamber, 72, handles and disperses
tempered or
conditioned air.
Connected to the dual air plenum 50 is a pair of ducts, duct 80 and duct 90.
Duct 80 is
connected to inlet 56 and extends therefrom to an exterior air area of the
building housing the
kitchen 10. Duct 90 is connected to inlet 58 and extends therefrom to an
exterior area of the
building housing kitchen 10. In the embodiment illustrated herein, duct 80 is
designed to
channel ambient or untempered air to the plenum 50. Thus, it is appreciated
that associated
with the duct 80 would be a variable speed fan indicated by numeral 82 and a
damper 84. The
velocity of air passing through duct 80 can be controlled by the variable
speed fan 82 and/or the
damper 84.
Associate with duct 90, is an air conditioning unit 92 that is operative to
heat and/or cool
the air being directed through duct 90 to the plenum 50. As schematically
illustrated in Figure 4,
air conditioning unit 92 has associated therewith a variable speed fan
indicated by numeral 94.
Additionally duct 90 includes a damper 96. It is also appreciated that in the
case of both
dampers 84 and 96 that these dampers could be incorporated into the structure
of the plenum
50.
In any event, the velocity of the air dispersed from chambers 70 and 72 of the
plenum 50
can be controlled. in particular, the velocity of the separate air streams can
be controlled by
appropriately adjusting either of the variable speed fans 82 and 94 and/or
adjusting the dampers
84 and 96.
It has been found that by controlling the velocity of the tempered or
conditioned air being
dispersed from chamber 72 or out the perforated plate 66 and 68 can influence
and control the
flow or pattern of air distribution from the plenum 50. That is, by
maintaining or controlling the
velocity of the tempered or conditioned air such that the velocity is equal to
or greater than the
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velocity of the untempered air, it has been found that the untempered air is
induced to pass over
the stove 12 and upwardly through the exhaust hood 14 while the tempered or
conditioned air
dispersed from the plenum tends to be directed into the kitchen area for
heating or cooling the
air therein. It is postulated that by maintaining the velocity of the tempered
or conditioned air to
equal or exceed the velocity of the untempered air, this tends to isolate the
untempered air from
moving outwardly into the kitchen area 10 and because of the relatively low
pressure existing in
the exhaust hood area, the untempered air system or stream is induced inwardly
over the stove
12 and up and out the exhaust hood 14. It is appreciated that direct control
can be exercised
over either system of air. The important consideration is that either system
or both systems of
air are controlled such that the velocity of the tempered or conditioned
system of air equals or
exceeds the velocity of the untempered or ambient system of air.
It is contemplated that in a preferred design that the velocity of the
untempered air would
be delivered at approximately 150 fpm while the velocity of the conditioned or
tempered air
would be delivered at 200 tom. In a case where the tempered air is cool, for
example, the air-
conditioned air under pressure tends to encourage the untempered air to move
towards the
exhaust hood 14, thus preventing hot air from entering the kitchen area 10,
The hot air being
exhausted from chamber 70 is forced into the exhaust hood to be exhausted from
the kitchen
while the cooled or conditioned air is free to mix with the air in the kitchen
area 10.
The scope of the claims should not be limited by the preferred
embodiments set forth herein, but should be given the broadest interpretation
consistent with the description as a whole.
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